Multilateral Well Optimization and System
First Claim
1. A system operative in a multilateral well comprising a plurality of legs and a completion component at a location along each of the legs operative to produce a production flow into the respective leg, the system comprising:
- a multilateral flow control valve array comprising;
a flow control valve at a location along each of the legs, the location in an uphole relation to the completion component of the respective leg and for each respective leg, a confluence between the respective leg and a second leg is in an uphole relation to the valve of the respective leg; and
a control arrangement to adjust a setting of each flow control valve independently of one another and independently of operation of the completion components.
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Accused Products
Abstract
Provided are methodologies and systems employing an array of independently operated flow control valves at an uphole location in each of a plurality of legs of a multilateral well to facilitate resolution and effective execution of efficient production plan and to improve performance. Along each leg of the multilateral well, a flow-control valve may be located downhole of a confluence between the respective leg and another leg and uphole of the well completion portion (production and/or injection component) of the respective leg. Each valve is operable independently of each other and of any valving in the completion component. Data regarding the nature and rate of production from each leg may be acquired from downhole sensors located at or about each flow control valve. The acquired data may be processed through a reservoir-well computerized model to resolve optimal valve settings across the valve array.
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Citations
36 Claims
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1. A system operative in a multilateral well comprising a plurality of legs and a completion component at a location along each of the legs operative to produce a production flow into the respective leg, the system comprising:
a multilateral flow control valve array comprising; a flow control valve at a location along each of the legs, the location in an uphole relation to the completion component of the respective leg and for each respective leg, a confluence between the respective leg and a second leg is in an uphole relation to the valve of the respective leg; and a control arrangement to adjust a setting of each flow control valve independently of one another and independently of operation of the completion components. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method of optimizing production from a multilateral well comprising:
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producing along a production portion of each lateral leg of the multilateral well; operating a flow control valve at a location along each lateral leg of the multilateral well, the location in an uphole relation to the production portion of the respective lateral leg; comingling the produced flow of each respective lateral leg with the produced flow of a second lateral leg at a confluence that is in an uphole relation to the valve of the respective lateral leg, monitoring production of each lateral leg of the multilateral well and adjusting operation of one or more of the in-flow control valves responsively to; a variance between the monitored production and a production target; and
/ora detection of a production adverse event; wherein the adjusting includes running a computerized reservoir-well simulation of the multilateral well to resolve responsive, simulated valve settings of simulated, flow control valves and adjusting the settings of the flow control valves of the multilateral well accordingly. - View Dependent Claims (11, 12)
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13. A method of managing production of a multilateral well comprising a plurality of well completions, a plurality of lateral legs communicating the plurality of well completions with an uphole string and a plurality of flow control valves at locations along the lateral legs in an uphole relation to the well completions, the method comprising:
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setting a production target; running a model reservoir-well simulation of the multilateral well including simulated, flow control valves along simulated legs in an uphole relation to simulated well completions to generate a production forecast comprising simulated well performance over time as a function of simulated valve sizes and simulated valve settings of the simulated, flow control valves; generating well production data while operating the flow control valves of the multilateral well in accordance with the simulated valve sizes and the simulated valve settings; updating the model reservoir-well simulation responsively to the generated well production data; comparing the generated well production data to the production target and running the model reservoir-well simulation to establish a revised production forecast and/or to establish revised valve settings for the flow control valves; repeating the generating, the updating and the comparing during a production life of the well. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20)
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21. A system associated with production of hydrocarbons, comprising:
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a computerized reservoir-well simulation of a multilateral well comprising a plurality of well completions, a plurality of lateral legs communicating the plurality of well completions with an uphole string and a plurality of flow control valves at locations along the lateral legs in an uphole relation to the well completions; a first sensor responsive to production from a first well completion of a multilateral well; a second sensor responsive to production from a second well completion of a multilateral well; a first flow control valve operable at a location in an uphole relation to a completion component of a first leg of a multilateral well and operable to selectively control a first flow of production from the first leg according to a first adjustable valve setting; a second flow control valve operable at a location in an uphole relation to a completion component of a second leg of a multilateral well and operable to selectively control a second flow of production from the second leg according to a second adjustable valve setting; the locations of the first and second flow control valves in a downhole relation to a confluence of flows from the first and second legs; a controller programmed to; monitor production by generating production data based upon an output of a sensor of the multilateral well; update the computerized reservoir-well simulation based upon an output of a sensor of the multilateral well; run the computerized reservoir-well simulation to generate a production forecast responsive to the production target and executing a control strategy for the first and second flow control valves of the multilateral well consistent with the production forecast; and compare the generated production data to the production target and adjusting execution of the control strategy responsively to the comparison. - View Dependent Claims (22, 23, 24, 25, 26, 27, 28, 29)
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30. A multilateral flow control valve array operative in a multilateral well comprising a plurality of lateral legs, a completion component at a location along each of the lateral legs and a confluence of lateral legs, the multilateral flow control valve array comprising:
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a flow control valve at a location along each leg of the plurality of lateral legs, for each respective leg the location of the flow control valve being in an uphole relation to the completion component of the respective leg and production flows of the respective leg and a second leg comingling at a confluence that is in an uphole relation to the flow control valve of the respective leg; and a control arrangement to adjust a setting of each flow control valve independently of one another and independently of operation of the completion components. - View Dependent Claims (31, 32, 33, 34)
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35. A system operative in a multilateral well comprising a plurality of legs and a completion component at a location along each of the legs, the system comprising:
a multilateral flow control valve array comprising; a flow control valve at a location along each of the legs, for each respective leg, the location being between the completion component of the respective leg and a confluence between the respective leg and a second leg; and a control arrangement to adjust a setting of each flow control valve independently of one another and independently of operation of the completion components. - View Dependent Claims (36)
Specification